Bread slicer



April 1943- A. H. AHRNDT 2,315,761

. BREAD sLIcER Filed March 18, 1940 8 Sheets-Sheet 1 1N VENTOR.

ATTORNEY.

April 1943 A. H. AHRNDT" H v I -2,315,761

BREAD SLICER A 6, 1943. A. H AHRNDT' BREAD .SLICER 8 Sheets-Sheet 3 Filed March 18, 1940 A 6, 1943. A. H. AHRVNDT BREAD SLIGER Filed March 18, 1940 8 Sheets-Sheet 4 ATTORNEY.

April 6, 1943. A. H.- AHRNDT BREAD SL ICER Filed Maz ch 18, 1940 8 Sheets-Sheet 6 April 6,

A. H. AHRNDT BREAD SLICER File March 18, 1940 8 Sheets-Sheet 8 Patented Apr. 6, 1943 BREAD SLICER Arthur H. Ahrndt, La Porte, Ind., assignor to U. S. Slicing Machine Company, La Porte, Ind.,

a corporation of Indiana Application March 18, 1940, Serial No. 324,484 In Great Britain April 19, 1939 27 Claims. (Cl. 146-147) This invention relates to slicing machines in general and particularly to machines for slicing edible substances. More specifically, the invention relates to a slicing machine for slicing loaves of bread into slices of a predetermined thickness.

The primary object of the invention is to provide an efficient, safe, and compact slicing machine wherein a loaf of bread to be sliced is arranged and supported in proper position away from the slicing knives so as to overcome any chance of the operator coming in contact with the knives during the loading operation, the knives being arranged on a pivotally mounted element movable in a vertical arc and adapted to be raised from the loading platform; the said element carrying a plurality of alternately reciprocal knives which are inoperative during the loading operation, but which are brought into operation by the mere manual manipulation of a handle which releases the knife supporting bracket to enable it to descend and at the same time bring the knives into reciprocating and cutting operation.

Another object of the invention is the provision of a safe, compact slicing machine wherein the substance to be sliced is arranged beneath cutting knives which are inoperative during the loading operation but which are operatively brought into operation during the descent of the pivotal knife supporting bracket, the parts further being so constructed and arranged that the slices after they are cut will be on the support above the knives so as to positively and -definitely eliminate all danger of the operator coming in contact with the movable knives.

- 'A further object of the invention is the provision of new and novel means for maintaining the pivotal knife supporting bracket in an upright position during the loading of the machine and causing descent of the bracket and the operation of the knives when a simple lever is manually manipulated.

A still further object of the invention is the provision of a new and novel mounting for the reciprocating knives, the mounting consisting of tubular elements reciprocating on rods, there being improved means for causing alternate reciprocation of adjacent knives.

Still another object of the invention is the provision of a slicing machine which is provided with new and novel means for supporting the pivotally mounted knife carrying bracket in an inoperative position; which is provided with new and novel means for releasing the bracket and causing operation of the knives when preselected by the operator; which is provided with new and novel means for supporting and clamping a loaf to be sliced and maintaining the loaf in proper position during the slicing operation; which is provided with new and improved means for cffecting the supporting and clamping of the loaf and for supporting the cut slices in proper position after the loaf is sliced; which is provided with new and improved means for limiting the speed of the gravitational descent of the pivotally mounted knife carrying frame; which is provided with new and novel crank mechanism for causing opposite reciprocation of the knife carrying frames so that alternate knives operate in opposite directions; which is provided with means arranged between the knife blades so as to prevent turning of the blades during the slicingbpration particularly when loaves of bread of certain texture are being sliced; which is provided with a novel arrangement for permitting the cut slices to be immediately slid into a bag after being removed from the slice receiving support after the cutting operation; which is provided with a novel arrangement including switches for making the machine as safe as possible, whereby the operation of the knives and other movable elements are prevented from being operated unless intentionally caused to be operated by the operator; and which is provided with parts arranged and operated in a predetermined manner so as to make the machine compact, noiseless, efiicient, safe, and ornamental.

Numerous other objects and advantages will be apparent throughout the progress of the following. specification.

The accompanyingdrawings illustrate a selected embodiment of the invention and the views therein are as follows:

Fig. l isa detail, plan view of the improved slicing machine, certain parts being broken away for the sake of clearness;

Fig. 2 is a detail longitudinal sectional view on the line 2-2 of Fig. 1;

Fig. 3 is a view similar to Fig. 2 but showing the knife supporting frames in elevated position;

Fig. 4 is a detail longitudinal sectional view on the line 4-4 of Fig. 1. I

Fig. 5 is a detail longitudinal sectional view on the line 55 of Fig. 1;

Fig. 6 is a detail'sectional view taken longitudinally of the pivoted knife supporting frame;

Fig. 7 is a detail transverse sectional view on the linel-J of Figs. 1 and 6;

Fig. 8 is a detail plan section on the line 8-8 of Fi 2;

Fig. 9 is a detail sectional view on the line 9- of Fig. l;

Figs. 10, 11 and 12 are detail elevational views showing the electric switch mechanism in progressive positions; and

Figs. 13 and 14 are detail elevational views showing the mercury switch mechanism in progressive positions.

The particular bread slicing machine herein disclosed for the purpose of illustrating the invention comprises a base or supporting frame I which includes the side members 2, a cross member 3 and an end member 4. These members 2, 3 and 4 are metal supports and rigidly connect the parts of the frame together. The members 2 and 4 have inturned top flanges 5, Figs. 1, 8 and 9.

A knife supporting frame 6, Figs. 1, 2, :and 3, comprising opposed side channels I, is pivotally mounted on the side members 2, as indicated at .8,:Figs. 1, .4 and 1.5. .-Bosses=9 are fixed to the in- ;side of the side members2 and receive pivot pins III which are also receivableinbosses fastened rigidly totthe inside ofthechannels Fig. 1. An

upper'cross member -l2and a lower cross member l3, Figs. 2 and 3, are each rigidly secured to the upper inturned-flanges 4 of the channel members :1 and rigidly connect the sidechannels to- ;gether near the inner ends thereof. Transverse upperand lower members 15 and |16 are rigidly fastened to the side frame members :at the extreme ends ofthe channel members I, whereby the pivotally mounted rigid knife supporting frame- 6 is provided. ,Aztransverse connecting bar I! is also rigidly connected to'the-side members 12 and forms a support .for the knife supporting frame 6 when the knife supportingframeis in vits'lowermost position, as shownin Figs-2 ail-d4.

Rubber bumpers l8 are adapted to be mounted on this .transverse bar l1 and engage the under sideof the connecting bar H; .of .the frame '6 against which the knife'supporting frame 6 abuts and stops upon .during the end of the descent o'fthe knife supporting frame 6. The knifesupporting frame 6, therefore, comprises a rigid-unit or frame which is pivotally mounted to the side supports 2 and is freetoassume the raised position-shown in Fig.3 orithe lowered position shown in Figs. v1, 2, and '4.

The knife supporting frame '6 is adapted to be supported in its :upward pivoted-position, Fig. 3, by resting upon cam'plates l9 pivotally mounted a t'20 to the sides 2 of the'base or support, Figs.

'4 and 5. The cams |9 are each provided with an upper peripheral portion 2| having its center at 20, and a curved orarcuate side edge forming a cam surface 22. The frame '6 is provided at opposite sides thereof with "cam rollers 23, Figs. 1,4, and 5,'pivotally-mounted on studs 24 which are rigidly secured'to the side-channel members .of the frame 6. Links 25 are pivotally connected at 26,Fig. 5, to the cam plates I9, and at 21 to crank arms 28 which are rigidly secured to a transverse shaft 29, Fig. 5. The end of the shaft-29 is rotatably mounted in suitable bearings in the side frame members 2.

An-operating arm or lever'30'is rigidly secured to an end of the shaft 29'by being fixedly connected to one end of the shaft 29 which extends a predetermined distance through and beyond the vsidemember 2 of the .main support I. Movement of the handle member.3|l, therefore, causes rotary or oscillatory movement of the transverse shaft 29, which movement is imparted to the links .25

for shifting the cam members IS on their pivots 20.

A part 3| of the loaf receiving platform or trough 32 is rigidly secured to the transverse shaft 29. When the knife supporting frame 5 is raised, the shaft 29 will move in a clockwise direction, as viewed in Figs. 2 and 3, because of the weight of the part 3|, the shaft 29 and part 3| moving from the position shown in Fig. 2 to the position shown in Fig. 3. Therefore, when the knife supporting frame is swung upwardly, being pivoted on its pivot supports 8, 9 and ID, the weight of the part 3| will turn the transverse shaft 29, Fig. 3, causing the cam members |9 to swing on their pivots so that the peripheral portions 2| thereof will be moved to position to permit the rollers 23 on the side bars or channels of the frame 6 to rest upon the peripheral portion 2| of the cam members l9 and support the knife supporting frame 6 in its extreme upward position, as shown in .Fig. 3. When the handle .member 30 is swung from the position shown in Fig. .3 to the position shown in Fig. 5, the transverse shaft 29 will be rotated, and this rotative movement will cause the links 25 to shift the cams |9 on their pivots and shift the peripheral sides 2| of the cams l9 away from under the supporting rollers 23, whereby the rollers 23 will be freed from the peripheral surface 2| and will roll along the curved cam surface 22 of the cams 9, permitting the knife supporting frame -6 to descend by gravity. Inasmuch as the knife supporting frame 6 is relatively heavy, because of the cooperating mechanism which it supports, there are provided means tending to counterbalance theframe 6. The counterbalancing means comprises a pair of spaced spring members 33, each of which comprises a helical spring .34 having the upper end thereof fixed to a nut element 35, Figs. 2 and 3, into which a screw 36 threadedly engages. The screw 36 also passes through a sleeve 31, Fig. 1, through which attaching bolts 38 also pass. The attaching bolts 38 are mounted between ears 39 on a bracket 40 which is rigidly secured to the back of the support and on the frame member 4, Figs. 2 and 3. A reinforcing strut 4| is rigidly connected tothe bracket .40 by welding or otherwise and is provided with a hook-shaped end whichengagesand .is supported by the flange 5 on the frame member 4. The brackets 40 are, therefore, rigidly secured to the supporting base of the machine,.and

pivotally support the upper ends ofthe-springs33.

Moreover, because the screws 36 attach the springs to themembers 40, the springs may be adjusted lengthwise to increase or decrease their tension by rotative movement of thescrews. The lower end of each spring 33 is operatively connected to a transverse support or member 42, Figs. 1 and 8, which-is mounted between spaced supporting members 43. The members 43 are fixed to the transverse plate or bar 3 which rigidly connects the side frame members 1 of'the knife supporting frame 6, Figs. 2 and 3.

.and 4 of the main supporting base I. The dash pct 44 has a piston which operates in the cylinder, and this piston has an extension or piston rod 41 which extends through the top of the dash pot. The rod 41 extends into a block 48, Figs. 3

and 8, which is pivotally mounted on a pivot 49 supported between angle brackets 58 rigidly secured to the transverse cross bar 42. A member 5| threadedly mounted in the block 43 has operative connection with the piston rod 47, whereby adjustment may be effected to the piston in the dash pot. The downward gravitational movement of the knife supporting bracket 5 is caused to move slowly at the proper desired speed and in proper timed relationship because of the counterbalancing means 33 and the dash pot 44.

The knife supporting frame is provided with upper and lower knife frames 52 and 53, respectively, Figs. 3 and 4. These knife frames 52 and 53,Fig. 4, comprise spaced apart upper and lower tubes or sleeves 54 and 55 mounted on each side of the channels I, being positioned within the upper and lower inturned legs 14 of the side channels 3. Upper transverse supporting members 56 and 5'1. rigidly connect the upper sleeves 54 together, while lower transverse supporting members 58 and 59 rigidly connect the lower sleeves 55. The knife frames 52 and 53, therefore, are separate rigid frames, each comprising the two longitudinal side sleeves and the front and rear transverse connecting members. Longitudinally extending upper and lower side guide rods 55 and 6 i, Fig. 4, slidably support the sleeves 5i and 55 respectively. The rods 60 and 62 are each rigidly supported at one end by a front plate 52 rigid with a part of the knife supporting frame 6. and at their opposite ends by being rigidly connected to upper and lower blocks 53 and 5d respectively, 4. The separate frames 52 and 53, therefore, are slidably mounted on the upper and lower pairs of rods 55! and 51, being free to slide forwardly and rearwardly independently of each other.

Crank arms 55 and 66, Figs. 8 and 9, are operatively connected to the frames 52 and 53, the crank arm 55 being operatively connected to the upper frame 52, while the crank arm 63 is operatively connected to the lower knife frame 53. Each of the frames 52 and 53 is provided with a rigid bifurcated extension 61 between which the arms 55 and 65 extend, being pivot'ally connected thereto, as indicated at 58, Fig. 2. The connection comprises a transverse pin forming the pivot 58 which extends through the bifurcated legs and upon which the ends of the crank arms 65 and B5 pivotally engage, Figs. 2 and 8.-

The opposite ends of the crank arms 65 and 86, Figs. 8 and 9, are revolubly mounted on a transverse crank shaft 69 suitably mounted in bearings it in a supporting bracket H fixed to the end 4 of the supporting base I. The crank shaft 53 is driven by a properly balanced flywheel or pulley i2 fixed to-one end of the crank shaft 69. This fly-wheel i2 is driven by a belt or other driving element 13 from a pulley or drive wheel 14 on the shaft 75 of a motor 15, Fig. 1. In the particular embodiment herein shown, the fly-wheel or driven pulley 12, Fig. 8, is provided with grooves into which flexible belts 13 xtend, the belts engaging complementary grooves in the upper pulley M.

The motor 15 is rigidly but adjustably mounted to the part 4 of the machine support base i. Fig. 9. being supported by a bracket 11. This bracket 11 includes a vertical plate 18 provided with holes 19 in alignment with elongated holes 86 in serrated and extend downwardly.

the part 4 of the base I. Bolts 8| pass through said aligned holes and rigidly but adjustably support the bracket to the frame or support I, permitting relative vertical adjustment of the motor supporting bracket TI. The bracket 11 is provided with an offset 82, Fig. 9, having a threaded opening 83 provided therein to receive a bolt 30 which passes through the inturned flange 5 on the member 4 so as to adjust the motor for proper belt tension. Bolts 85 pass through the cradle part of the bracket 11 and threadedly engage a part of the motor housing. The motor 16, therefore, is maintained in rigid position but is capable of adjustment to take up slack in the belts, or for other purposes. The motor also may be quickly and readily removed from its supporting bracket so as topermit easy access to several of the working parts of the machine beneath the motor and bracket.

The knife frames 52 and 53 are reciprocated reversely by the crank arms and 66, and each knife frame has operatively connected thereto a plurality of longitudinally extending cutting knives 85. Fig. 6, the cutting edges of which are The upper knife frame 52 carries a plurality of knife supporting members 83 which comprise channels, Figs. 6 and 7, having downwardly extending legs 89 rigidly connected by an integral straight or connecting portion 96, Fig. 7. The channels 88 abut against the edges of front and rear upper transverse Z-bars S? which are fastened to the upper transverse members 56 and 51, Fig. 6, and those channels are properly arranged and spaced so as to receive a knife blade 86 therebetween. The-adjacent channels are spaced apart a thickness equal to the thickness of the knife blades 86.

The lower frame 53, Figs. 6 and 7, carries a plurality of knife supporting members 9! which are identical with the upper knife supporting members 88 and include upwardly extending legs 92 connected by an integral connecting portion 93, Fig. 7. The knife supporting members 9! for this lower frame are also in the form of channels, which, like the upper members 88, abut against the edges of front and rear lower transverse 2- bars 8? fastened to the cross members 58 and 59.

The legs 92 of the members 9! are spaced apart distance equal to the thickness of a knife blade 86, and extend upwardly midway between the downturned legs 89 of the members 88, thereby to provide a compact structure and maintain the cutting edges of the knives in the same flat cutting plane. The upper knife supporting members 82 are connected to each of the cross members 53 and 51 of the upper knife frame 52 and extend downwardly therefrom, so as to support the ends of the knives 85 which extend longitudinally across the entire knife frame 52. The lower knife supporting members 9| are connected to each of the cross members 58 and 59 of the lower knife frame 53 and extend upwardly therefrom, so as to support the ends of the knives 86 which extend longitudinally across the entire knife frame 53. The supporting legs 89 of the membars 38 extend downwardly, while the legs Q2 of the members 5i extend upwardly. The knives 85 therefore, separately and independently connected to their respective frames so as to permit separate and independent movement, and while the knives on each frame are permitted to have separate and independent movement collectively, they are so positioned with respect to each other that the adjacent knives reciprocate in opposite directions. The knives of one frame are positionedmidway between the knives of the other frame so that alternate knives will move in opposite directions during operation of the machine.

The adjoining legs 89 and 92 are provided at their forward ends (the end away from the operator and near the motor) with slots or V- shaped notches 94, Fig. 6, to receive a transverse lug, pin or bearing 95 on one end of each knife. The other ends of the knives have rigidly connected thereto a threaded screw member 96 which is received in cutouts 91 in the legs 89 and 92 of the members 88 and 9| respectively. The knife is therefore supported at this latter described end by being positioned in the space between the legs 89 or 92 with an end of the screw member 96 arranged in the slots 91 provided in the adjacent legs of the knife supporting members 88 and 9|. Threaded sleeves or nuts 98 threadedly engage the end of the threaded members 95 and when screwed up to tightening position tighten the knives in place and provide for the proper tension. The ends of the nuts 98 may be provided With a cross slot so that they may be tightened by a screwdriver and, if desired, washers 99 may be inserted underneath the nuts 98 so as to provide proper bearing surfaces for the nuts 98, the washers being interposed and engaging the underside of the nuts and the extreme edges of the corresponding legs of the knife supporting members 88 or 9|. The knives 86 are, therefore, held in position and may be maintained at the desired tension so as to perform properly the slicing operation. Moreover, the tension may be decreased or increased to suit the type of material being cut if necessary. Also, by the particular means of fastening the knives to their respective support, the knives may be readily and instantly removed or replaced. The present construction, therefore, makes it relatively easy to increase or decrease the tension on the knives, as well as to insert new knives or remove the old ones.

The motor I6 operates the crank shaft 69 which operates the respective crank arms 65 and 66 to reciprocate the knives carried by each of the upper and lower knife frames 52 and 53. In order to effect the slicing of a loaf, the knife supporting frame is raised to its uppermost position, whereby the rollers 23 will engage the peripheral surface H on the cam members I9 and thereby maintain the knife supporting frame 6 in such upright position. The operator is now free to arrange a loaf of bread or other material to be sliced on the loaf supporting frame 32. The loaf is rested upon the support 3| with a side thereof engaging the cooperating rigid side I00 of the member 32'. The end of the loaf may engage a plate IOI rigidly secured at each side of the machine to one of the fingers or prongs of the rigid part I00 of the loaf support 321. The part I00 of the loaf support 32 is rigidly secured to a transverse bar which is rigidly connected to the channel side members 2 and 3 of the base I.

The loaf support 32, therefore, comprises a movable part 3I and the fixed part I00. Each part 3I and I00 comprises a plurality of spaced fingers I02 which are spaced apart a predetermined distance and opposite to each other. The fingers I02 are so located that the spaces I03 between the fingers are in alignment, permitting the knives to pass through the spaces between them. When a loaf of bread is to be sliced, it is placed on the part 3I of the substance support 32 after the knife supporting frame has been moved to its raised position. When the handle 30 is operated, the shaft :29 will be rotated and thereby move the substance support part 3I toward the rigid part I00, whereby the V-shaped trough 32 is formed to support the loaf.

The machine is made as safe as possible so as to protect the operator, the knives being prevented from operating unless it is intentionally desired to do so by the operator. A switch mechanism I04, Figs. 10-12, is provided to start the motor and operate the knives. This mechanism IE4 is operated or controlled by the manipulation of the handle 30 which is attached to the shaft 29 and extends outside the machine frame. In normal position, with the knife supporting frame 9 in its lowermost position as shown in Figs. 2 and 4, the switch mechanism is such to shut off the electric current to the machine, there being conductors leading to the switch mechanism from a source of electric supply. The switch mechanism is such that an electric switch is prevented from being operated unless the knife supporting frame 6 is in its elevated position. When the knife supporting frame is in its elevated position, Fig. 3, the switch mechanism which operates the electric switch will be moved to operating position but the motor will still not operate because the switch mechanism has not yet operated the switch, although it is free to be operated. The switch mechanism I04 is controlled by manual operation of the lever 30. Thus, when the frame 6 is raised and the lever 30 operated. the switch operating mechanism will cause the switch to be closed to complete the electric circuit to start the motor. The switch operating mechanism is adapted to be operated to open the circuit when the knife supporting frame 6 reaches the limit of its downward travel. When the frame 6 comes to rest, it will engage a part of the switch operating mechanism and cause the parts again to assume normal position.

The switch operating mechanism I04 includes an electric snap switch I 05, Figs. 10 to 12, of usual construction but which has an operating finger I06 extending a predetermined distance out of the top of the switch casing I01. A bell crank I08, which is pivotally connected at I09 to the side 2 of the supporting base I, has the lower end of its arm IIO bifurcated, as indicated at III. The switch stem or operating finger I06 is received in the bifurcation I I0 so that when the bell crank I08 is operated, the stem or finger I06 will be operated to turn off or turn on the switch depending upon the movement of the bell crank and the position of the finger I06. A lever I I2 pivoted on the shaft 29 has a bifurcated end H3 between the bifurcations of which there is pivotally mounted at I I4 one end of a link I I5. The other end of the link H5 is pivotally connected at IIB to the arm I I1 of the bell crank I00. A plate II8 having an upstanding shelf or apron H9 is pivoted at I20 to the bar or lever H2 and has restricted tiltable movement with respect to the bar or lever I I2. The under side of an extension I2I on the apron II9 of the plate H8 is adapted to be engaged by the upper side of the lever H2, the plate II8 being urged away by means of a relatively light spring I22. The plate H8 is provided with a tubular extension I23 into which a screw threaded member I24 is received. This screw I24 has an engaging knob or operating end I25 which is adapted to be pre-set by the crank arm or shaft hanger element 28 which is fixed to the transverse shaft 29 carrying the part SI of the substance support 32. When the knife supporting frame 6 is in its lowermost position, as

shown in Figs. 2 and 4, the knob member I25 will be in its lowermost position and be adjacent the end of the crank arm 28, as shown in Fig. 10.

When the knife supporting frame 6 is raised to its upper position as shown in Fig. 3, the crank arm 28 will be shifted to the position shown in Fig. 11 because the weight of the substance support part 3I will swing the shaft 29, causing the lever 30 to be moved to its lowermost position. The downward movement of the part 3| of the substance supporting rack 32 is limited by a projection on the end of the handle 30 engaging a rubber bumper I26, Fig. 1, fixed to the outside of the frame. However, when the handle 30 is raised to clamp the loaf between the two parts 3| and I00, the crank arm 28 will first have a side I2I thereof directly opposite the knob I25. The side I21 will come in direct contact with the knob I25 as the handle is continued to be raised to its uppermost position. This raising of the handle 30 will cause the side I21 on the crank arm 28 to move the plate H8. The plat H8 in turn causes the lever or bar II2 to be swung on its pivot, thereby operating the bell crank to work the switch I05. The movement of the pivoted bar I I2 causes the plate I I8 to be raised and swing the bell crank I08 on its pivot in a clockwise direction, Fig. 12, causing the switch operating finger I06 to be moved from open position shown in Figs. 10 and 11, to closed position shown in Fig. 12. The operation of the switch I05 starts the motor and all the knives will start to operate. The movement of the handle 30 to its uppermost position will shift the cams I9 so as to move the peripheral part 2| of the cams out from under the rollers 23 on the support 6, freeing th knife support 6 and allowing it to descend by gravity. The gravitational descent of the knife supporting frame 6 is checked properly by the dash pot 44. When the knife supporting frame 6 reaches the end of its downward travel, the bottom edge of one of the channel rails I will engage a resilient bumper I28 on the plate H8 and pres the plate downwardly; and inasmuch as the plate H8 is secured operatively to the bar II2, it will shift this bar I I2 downwardly and move the bell crank in a counter-clockwise direction, Fig. 12. The switch operating finger I 06 will then be moved to the position shown in Fig. 10 and o e th C11. cuit to stop the motor, and consequently the movement of the knives.

The switch mechanism I04, therefore, will not operate the switch until after the machine is loaded and the handle 30 has been moved intentionally to its upward position. The movement of the handle 30 has then caused the motor to operate the knives to slice the loaf, and after the loaf slicing operation is completed, the knives will cease running as the switch will be operated when the frame 6 reaches its lower limit.

In order to permit manual operation of the switch operating mechanism, a rod I29 is provided. This rod I29 has its lower end attached to a part I30 on the plate H8, and its upper end extending through the flange 5 on the side 2. A knob I3I is applied to the end of the rod I29 to permit such manual operation. Thus, by pulling up or pushing down on the knob I3I, the switch I05 may be operated manually.

Instead of using the switch mechanism just described, other switch mechanism I32, Figs. 13 and 14, may be used for operating a mercury switch. This latter mechanism comprises an electrical connector or plug I33 to which the electrical conductor I34 leading from a source of electric supply are electrically connected. The conductors I34 are arranged in a sheath or tubing I35 which extends through a bushed opening I36 provided for this purpose in the bottom of the frame or base I. The electrical connector I33 includes an electrical snap switch I3'I which has an operating finger or stem I38 extending through the side wall 2 of the base I. This snap switch I3'I, like the snap switch I05, is adapted to be operated manually by the stem I38 to open or close the circuit. A mercury switch I39, Figs. 13 and 14, which has electric cooperation with the snap switch I38, has two leads I40 connected thereto. This mercury switch is electrically connected to the conductors I35 and to the electric conductors I4I which lead to the motor I6. The circuit between the conductors I34 and MI, therefore, may be made or broken by the mercury switch I39. However, the electric current is supplied to the connector or plug I33 by means of the manually operated snap switch I3'I.

The mercury switch I39 is connected to a bracket I42 which is pivotally mounted at I43 to the side wall 2. This bracket I42 includes an extending leg I44 which terminates in a U-shaped member I45. A trip finger support I46 which is secured to a leg I41 of the U-shaped member I45 carries a trip finger I48 urged against a stop by a push spring I49; the spring I49 may, if desired, be a torsion spring. The finger I48 is adapted to be engaged by a finger I50 on the crank arm 28 so that when the operating handl 30 on the shaft 29 is raised, the trip finger I48 will be contacted by the finger I50 to swing the bracket I42 on its pivot I43. Inasmuch as the mercury switch I39 is connected to the bracket member I42, the mercury switch will be tilted to make an electrical connection. .The mercury switch I39 is of the usual type in which twocontacts electrica1 ly connect when the mercury in the switch is at the end carrying the contacts, and disconnected to bare the contacts when the mercury is at the opposite end of the tube. An outwardly extending ledge or shelf I5I rigidly connected to the base I52 of the U-shaped member I45 is adapted to be engaged by an adjustably mounted stop member I53 on the knife supporting frame, Fig. 13, so that when the knife supporting frame 6 reaches its downward position, it will engage this ledge or shelf I5I and move the bracket I42 on its pivot I43. The pivotal movement of the bracket I42 causes the mercury in the switch to run away from its contacts, thereby breaking the circuit to the electric motor, causing the electric motor to stop, and consequently stopping the operation of the cutting knives 86. A tension spring I54 is connected to a part of the bracket I42 and to a pin I55 on a rigid bracket I56 fixed to the frame, so as to give a relatively fast or quick snap movement to the mercury switch. The spring I54 is normally dormant or inactive until the bracket I42 has been moved on its pivot I43 sufficiently to move the spring beyond the center of the pivot I43 at which time the spring becomes immediately active and shifts the mercury switch with a quick snap action.

When it is desired to operate the slicing machine, the snap switch stem I38 is operated to permit current to be supplied to the contacts in the switch I3I. As the frame 6 is being raised, the projecting finger I50 on the crank arm 28 will fall from the position shown in Fig. 13 to the position shown in full lines in Fig. 14. The mercury switch has not yet been shifted to a position whereby the mercury will flow to cover the contacts of the mercury switch, so the ma.-

chine will not -yet operate. However, when the handle 30 is raised, the projection or finger I50 on the member 28 will engage the finger I48 and turn the bracket I42 on its pivot I43 causing the mercury switch I39 to be tilted to the dotted line position in Fig. 14. The tilting of the switch causes the mercury to flow down to the end of the tube and cover the contacts therein to complete the circuit. The machine is thus put in motion but it may be immediately shut off by the operation of the manual snap switch I31 which is adapted for operation independently of the mercury switch I39. The mercury switch can not operate the mechanism independently of the manual switch, nor can the manual switch operate the mechanism independently of the mercury switch. During the descent of the knife supporting frame 6, the ledge or shelf II which is attached to the bracket will be engaged by the member I53, causing the bracket I42 to shift on its pivot I43 and tilt the mercury switch, whereby the contact points will become bared of mercury and break the electrical circuit. The spring. I54 is so connected that when the handle 30 is operated and the bracket turned, the movement will be gradual to a certain point and then move with a quick snap action. The spring I54, therefore, causes the circuit to be broken with a snap action because the movement of the bracket is controlled to a certain extent by the spring.

A casing or housing I51, Figs. 2, 3 and 9, is adapted to encase the motor and some of the other operating mechanism. This housing comprises an upper part I58 which is rounded as indicated at I59 and includes a rear leg I60 extending downwardly to the lower edge of the frame or base I. The sides of the housing are closed to completely enclose part of the mechanism and to render a neat appearance. The part I60 engages some rubber bumpers I6I mounted on the end 4 of the frame I, so as to fit tightly and neatly in position and prevent rattling or clashing of parts. The housing is fastened in position by being screwed to certain parts of the frame I or to extensions thereon.

In order to close the opening between the end I62 of the housing or casing and the adjacent upper surface of the knife supporting frame 6, a pivotal angle plate I63 is provided. This pivotal plate comprises an angularly shaped member I64 having a fiat leg I65 which is secured to the side parts 1 of the knife supporting frame 6. The upwardly extending part of the member I64 is bent over to provide a tubular portion intermediate its ends tocooperate with a tubular portion on a connecting plate member I66. A rod I61 passes through these two tubular portions to pivotally connect the angle plate I63 with the connecting plate member I66. An upper end of the member 6 I66 is also turned over to provide a tubular portion I68 into whichthere is mounted a rod I68. Links I69 are pivotally connected at the ends of the rod I68 and are pivotally connected to pins I10 fixed to an angle I" which is rigidly connected to the frame, Fig. 4. During the raising and lowering of the knife supporting frame 6, the opening between the frame and the knife support 6 is always closed, as the parts I63 and I64 are pivotally connected to respective parts of the machine to permit flexible movement. Rubber washers I12 may be inserted at the pivotal connections to produce a flexible noiseless pivotal connection.

Rubber feet I13 are fixed to the under side of the frame at predetermined positionsto form a resilient support for the base and to prevent the.

machine from marring the structure'upon which it is supported. It is desirable that there beprovided a cross bar with a central support to provide proper support and suspension for the ma.

chine. It is further desirable that the entire machine be raised and properly'supported so that,

a removable scrap pan extending under the entire machine may be used.

After the knife supporting frame 6, has descended to its lowermost position-andthe switch mechanism has been operated by such descent, the cut slices will be arranged in the substance supporting trough 32, and as theknives have extended clear through the loaf, the cut slices will be arranged above the knives. operator may remove the slices from the trough Without danger of coming into contact with the sharp edges of the knives or in fact without coming in contact with the knives at all. If desired, either or both of the members 3 I or I00 constituting the substance support 32, may be provided With substance engaging, teeth or, claws I14 to assist in supporting the loaf in position during the cutting operation. These teeth or claws are preferably formed by p ening or otherwise upsetting a part of the metalvof the fingers of the support 32.

After the slices have been, cut, they, may be removed bodily and in order and placed upon a supporting shelf or tray I15, Figs. 1, 2, and 3, which is mounted on the top of the knife supporting frame 6. This shelf is rigidly secured to the frame 6 at one end only asindicated at I16 and this shelf or, tray is, spaced a predetermined distance above the upper surface of the knife support 6 to permit a bag to be slid underneath so that all the cut slices, inproper order, may be slipped into abag, Figs. 2, 3 and 4.

A removable plate I11, Figs. 2, 3 and 4, is attached to the, front of the knife support 6, being provided with a handle I18 to allow the knife support 6 to be raised easily to upright position, Fig. 3. This front plate I11 is provided with openings through which oil cups I19 pass. These oil cups I19 are adapted to threadedly engage the bars 60 and BI upon which the individual knife frames slide so that lubricant may be fed to the individual knife frame bearings. The bars 60 and 6| are provided with means to permit lubrication thereof so that the sleeves will be freely slidable thereon. The oil cups I19 are arranged at the ends of the bars to receive the lubrication. Shutters I19 are provided on these oil cups to prevent the lubricant carried in the cups from spilling out, Fig. 2.

A sliding tray or drawer I having an operating handle I8I is slidably arranged at the under side of the machine to catch crumbs and particles resulting from the slicing'operation. The end of the drawer is provided with a flange I82, which when the drawer is in position,"covers one of the frame cross members to prevent the accumulation of crumbs or other debris.

Operation To operate the device to perform a slicing operation, the knife carrying frame 6 is moved from itsv normal rest position, as shown in Figs. 1, 2, and 4, to the raised position shown in Fig. 3. When the knife supporting frame 6 has been raised to the position shown in. Fig. 3, it will be suported in that position because therollers 23. on

Therefore, the

the knife-supporting frame 6 are on the periph-- eral surfaces 2| of the cams l9. As the frame 6 is being raised from the position shown in Fig. 2 to the position shown in Fig. 3, the substance supporting shelf 3| of the substance support 32 will be in a relatively horizontal position, as shown in Fig. 3. The substance to be sliced is then mounted on top of the part 3| of the member 32 with the forward side of the substance substantially engaging the rigid part me. The end of the loaf is adapted to engage either one of the end plates llll. After the loaf has been so positioned, the handle 30 is raised, whereby the part 3! will be moved upwardly, forming a relatively V-shaped trough into which the loaf is supported. The movement of the handle 30 also operates the switch mechanism Iii-i or I32 to cause operation of the motor 16 which, in turn, through the cranks 65 and 65, causes alternate reciprocation of the knife supporting frames 52 and 53. The upward movement of the handle 36 also moves the cams l9, bringing the peripheral portions 2| thereof out from under the rollers 23, whereby the rollers 23 will engage the curved portions 22 of the cams and permit the knife supporting frame 6 to descend by gravity. During the descent of the knife supporting frame 5, the loaf will be sliced by the knives 3% which are rapidly reciprocating, alternate knives reciproeating in opposite directions. After the knife supporting frame 6 has reached the end of its downward travel, a projection on the bottom of the knife supporting frame will strike an operating part of the previously described switch mechanism and shut off the current, whereby the motor will stop running and the knives will stop moving. Inasmuch as the knives are completely free of interference, the cut slices may be removed from the trough and placed upon the shelf H5, whereby they may be put in proper order into a bag or wrapper, or the bag slipped over the shelf to receive the slices on the shelf.

The invention provides a compact, efficient, positively operating bread slicer which is safe and practically fool-proof, as the loading and unloading is done with the machine at rest. Moreover, the parts of the machine are so arranged as practically to eliminate the possibility of its being caused to operate unintentionally. The parts are so arranged and constructed that changes and repairs may be made quickly and rapidly without danger. Moreover, the construction of the machine is such as to be practically noiseless in operation. The machine is also capable of various adjustments so as to permit continued flawless and efficient operation and to overcome noise and vibration as much as possible.

Changes may be made in the form, construction and arrangement of the parts without departing from the spirit of the invention or sacrificing any of its advantages, and the right is hereby reserved to make all such changes as fairly fall within the scope of the following claims.

The invention is hereby claimed as follows:

1. A slicing machine comprising a frame, a raisable knife suporting frame adapted to descend by gravity and pivotally mounted on the first named frame, supporting means including a pivotally mounted suporting member for holding the knife supporting frame in raised position, a pair of knife frames in the knife supporting frame, a motor for reciprocating said knife frames, and means including a common manually' controlled member for causing operation of the motor and conjointly moving the supporting member about its pivot to release the knife supporting means and allow gravitational descent of the knife supporting frame.

2. A slicing machine comprising a frame, a raisable knife supporting frame adapted to descend by gravity and pivotally mounted on the first named frame, supporting means including a pivotally mounted supporting member for holding the knife supporting frame in raised position, a pair of knife frames in the knife supporting frame, a motor to reciprocate the knife frames, means including a manually operable lever to shift the supporting lever member about its pivot to release the knife supporting frame and allow the knife supporting frame to descend by gravity, and means controlled by said manually operable lever to start the motor as the knife supporting frame is released.

3. A slicing machine comprising a frame, a raisable knife supporting frame pivotally mounted on the first named frame, supporting means for holding the knife supporting frame in raised position, a pair of knife frames in the knife supporting frame, links pivoted to the supporting means, a shaft mounted in the frame, crank arms on the shaft to which the links are pivotally connected, an operating lever rota-' tionally to move the shaft to operate the links and shift the supporting means from supporting position to release the supporting frame, means to operate the knife frames, and means controlled by the operating lever to cause operation of the last named means.

i. A slicing machine comprising upper and lower side bars, sleeves surrounding the bars and slidable thereon, upper and lower cross bars rigidly connecting the upper and lower sleeves at each end to provide knife frames, knives removably connected at one end to the upper and lower cross bars at one end of the frame, threaded means operatively connecting the other ends of the knives to knife frames at the other end thereof, and a pivotally mounted frame movable in a vertical are rigidly supporting said side bars, said side bars including a hollow portion, lubricating cups screwed into the ends of the side bars, and means permitting the passage of lubricant from the cups to the exterior surfaces of the side bars whereby to lubricate the exterior surfaces of the side bars and the interior surfaces of the sleeves.

5. A slicing machine comprising upper and lower side bars, sleeves surrounding the bars and slidable thereon, transverse upper and lower cross bars rigidly connecting the upper and lower sleeves at each end to provide knife frames, knives removably connected at one end to the upper and lower cross bars at one end of the frame, threaded means operatively connecting the other ends of the knives to knife frames at the other end thereof, and a pivotally mounted frame movable in a vertical are rigidly supporting said side bars, said side bars including a hollow portion, lubricating cups screwed into the ends of the side bars, and means permitting the passage of lubricant from the cups to the exterior surfaces of the side bars whereby to lubricate the exterior surfaces of the side bars and the interior surfaces of the sleeves, said cups being provided with rotatively mounted shutters to prevent the lubricant from spilling out.

6. A slicing machine comprising a casing, a knife supporting frame pivotally mounted on the casing and adapted to descend by gravity,

longitudinally extending knife frames reciprowhy mounted inv the knife supporting frame, means for reciprocating said knife frames individually, means to support the frame when swung on its pivotal mounting to raised position, said means being operable during said movement, and pivotally mounted means to release the last named means to permit the knife frame to descend by gravity.

7. A slicing machine comprising a casing, a knife supporting frame pivotally mounted on they casing, knife frames reciprocally mounted in the knife supporting frame, means for reciprocating said knife frames individually, a shelf plate mounted above the top of the knife supporting frame at one end thereof, there being a space between the under side of the plate and the top of the knife supporting frame on which it is mounted to receive a bag whereby cut slices on the shelf may be inserted into the bag.

8. A slicing machine comprising a support, a raisable knife supporting frame pivotally mounted on the support, a substance support-having a part thereof movable with respect to another part thereof, said movable part dropping to a predetermined position upon raising movement of the frame, means for supporting the frame in raised position, and means adapted simultaneously to move the movable substance support part toward the fixed part and to move the supporting means to release the knife supporting frame.

9. A slicing machine comprising a support, a raisable knife supporting frame pivotally mounted on the support, a substance support having a part thereof movable with respect to another part thereof, said movable part dropping to a predetermined position upon raising movement of the frame, cams pivoted to the support and movable to position to support the knife supporting frame when the knife supporting frame is raised, and operable means to shift the cams out of supporting position and to move the movable substance part toward the fixed part.

10. A slicing machine comprising a pivotally mounted knife supporting frame, knives carried bythe frame, a motor for reciprocating the knives, electrical means including switch mechanism controlling the operation of the motor, a substance support including a movable member, means for shifting the movable member when the knife supporting frame is raised, means controlled by said movable member to set the switch mechanism at a predetermined position, means for supporting the knife supporting frame in raised position, and manually operable means for shifting. the movable part of the substance support for releasing the knife supporting frame and for operating the electrical means to cause operation of the motor.

11. A slicing machine comprising a pivotally mounted knife supporting frame, knives carried by the frame, a motor for reciprocating the knives, electrical means including switch mechanism. controlling the operation of the motor, a

substance support including a movable member,. means for shifting the movable member when theknife supporting frame is raised, means controlled by said movable member to set the switch mechanism at a predetermined position, means for supporting the knife supporting frame in raised position,.and manually operable means for shifting the movable part ofthe substance support for releasing. the knife supporting frame andforoperating the electrical meanstov cause operation of the motor, and means operated: by the knife supporting frame during its descentto' operate the electric means-and stop the motor.

12. A slicing machine comprising a pivotally mounted knife supporting frame, knives carried by the frame, a motor for reciprocating the knives, electrical means including switchmechanism controlling the operation of the motor, a substance support including a movable member, means for shifting the movable member when the knife supporting frame 'is raised, means controlled by said movable member to set the switch mechanism to a predetermined position, means for supporting the knife supportin frame when in raised position, manually operable means for shifting the movable part of the substance support for releasing the knife supporting frame and for operating the electrical means to cause operation of the motor, means operated by the knife supporting frame during its descent to operate the electrical means and stop the motor, said electrical means including the aforesaid switch and a mercury switch, means for preventing operation of the mercury switch when the first switch is off, and means controlled by the position of the knife supporting frame to permit operation of the mercury switch.

13. A slicing machine comprising a pivotally mounted knife supporting frame, knives carried by the frame, a motor for reciprocating the knives, electrical means including switch mechanism controlling the operation of the motor, a substance support including a movable member, means for shifting the movable memher when the knife supporting, frame is raised, means controlled by said movable member to set the switch mechanism at a. predetermined position, means for supporting the knife supporting frame in raised position, manually operable means for shifting the movable part of the substance support for releasing the knife supporting frame and for operating the electrical means to cause operation of the motor, means operated by the knife supporting frame during its descent to operate the electrical means and stop the motor, said electrical means and switch mechanism including an electric snap switch and a mercury switch, means for preventing operation of the mercury switch when the snap switch is off, means controlled by the position of the knife supporting frame to permit operation of the switch, and additional manually operated means to operate the mercury switch independently of the knife supporting frame.

- release the knife supporting frame,

15. A slicing machine comprising a pivoted frame, knives mounted in said frame for reciprocation, supporting means to support the frame in raised position, means to release the supporting mean frome the frame to permit the frame to descend, means to reciprocate the knives, means initiated by operation of said release means for the supporting means to operate said.

knife reciprocating means during descent of the frame, and means to prevent operation of the knife reciprocating, meanswhen the frame has reached the limit of its descent.

16. Aslicing machine comprising a support, a raisable knife supporting. frame pivotally mounted on the. support, a substance support having a part thereof movable with respect to another part thereofia cam pivotally mounted on said first support, said-cam-having a surface extending in a generally vertical direction and an upper surface extending in a generally horizontal direction to provide a support for said frame when raised, cam engaging means on said frame for riding on said cam surfaces, means for moving said cam about its: pivot to support said frame in raised position and torelease the substance frame for downward movement, said cam engagingmeans: riding on said generallyvertical surface ofthe cam during downward movement of the frame, and means interconnecting said camand said movable part of the substance support to lock the said movable part in a predetermined position during engagement of the cam engaging means with said erally vertical surface.

17. A slicing machine comprising a support, a manually raisable knife supporting frame p votally mounted on the support, a substance support having a part thereof -movable with respect to another-part thereof, a cam pivotally mounted on said support, said I cam having a surface extending in a, generally vertical direction and an upper surface extending ina generally horizontal direction to provide a support for said frame when raised, cam engaging means on said frame for riding on said cam surf-aces, means providing for moving said movable part of the substance support to a predetermined'position away from the fixed part of the support, interconnecting means between said movable part of the substance support and said cam providfor moving the cam about itspivot to support said frame in raised position on said upper surface of the cam, means for moving said movable part of the substance support towards the fixed part thereof and for releasing the frame for downward movement, said cam engaging means riding on said generally vertical surface of the cam during downward movement of the frame, and said interconnecting means preventing movement of said movable part of the substance support during engagement of the cam engaging means with said generally vertical surface.

18. A slicing machine comprising a, main frame, a raisable knife supporting frame pivotally mounted on the first named frame for movement about a fixed axis, a pair of cam members pivoted to the main frame and having upper cam portions extending in a generally horizontal direction, means for moving the cams and said upper portions to a predetermined position to support the knife supporting frame on said upper cam portions when the knife supporting frame is in raised position, and a handle operatively connected to said cams to move the cams from said predetermined supporting position to release the knife supporting frame from said upper cam portions and permit it to drop independently of further action by said cams.

19. In a slicing machine having a base, a knife supporting frame, knife frames slidable in the supporting frame, cranks for operating the knife frames, and a motor for operating the cranks, means for supporting said motor comprising a hanger for said motor, elongated openings being provided in the base and in alignment with openings provided in the hanger, bolts passing through said openings adjustably to support the hanger, screw means passing through a part of the base and threadedly engaging the hanger adjustably to lock the hanger in position, a curved cradle on the hanger to support the motor intermediate its ends, and bolts passing through the cradle and engaging the motor rigidly to secure the motor to the cradle.

20. A slicing machine comprising a base, a knife supporting frame pivotally mounted on said base for movement in a vertical arc, knife frames in the knife supporting frame, motor drive means for reciprocating said knife frames. a casing for enclosing saidi motor drive means extending upwardly above said knife supporting frame, a forward edge of. said casing terminating a predetermined distance above the knife supporting frame when the latter is in lowered position to provide an opening for said vertical movement of the knife supporting frame, a pair of hingedly connected closure members for substantially closing said opening irrespective of the angular position of said knife supporting frame, one of said closure members being attached to the knife supporting frame, the other of said closure members being guided for movement in a generally vertical path, and linkage means pivotally connected to said last named closure member and a fixed part of the machine for effecting said guiding action.

21. A slicing machine comprising a casing, a raisable knife supporting frame pivotally mounted on the casing, knife frames reciprocally mounted in the knife supporting frame, means for reciprocating said knife frames individually, a sub-stance support including a movable and a fixed part for supporting a loaf of substance to be sliced, supporting means for said movable part providing for movement of the part by gravity to a predetermined lowered position with respect to said fixed part when the knife supporting frame is raised, means for raising said movable part toward the fixed part to support a loaf therebetween, means for 'supportingthe knife frame in raised position, and interconnecting means providing for releasing said knife frame supporting means upon operation of the said next to last named means.

22. A slicing machine comprising a support, a raisable knife supporting frame pivotally mounted on the support, a substance support having a part thereof movable with respect to another part thereof, supporting means for said movable part providing for movement of the part away from said other part to a predetermined position upon raising movement of the frame, means for moving the movable part in a predetermined direction toward the other part, means for supporting the knife frame in raised position, and interconnecting means providing for releasing said knife frame supporting means upon operation of the said next to last named means.

23. A slicing machine comprising a support, a raisablc knife supporting frame pivotally mounted on the support, a substance support having a part thereof movable with respect to another part thereof, supporting means for said movable part providing for movement of the part to a predetermined position away from said other part upon raising movement of the frame, cams pivoted to the support and having supporting surfaces, rollers on the knife supporting frame engagcable with the periphery of the cams, and

means interconnecting said movable part and said cams providing for shifting the cams to bring the supporting surfaces in position to support the knife supporting frame upon movement of the movable part towards said predetermined position when the knife supporting frame is raised.

24. A slicing machine comprising a support, a raisable knife supporting frame pivotally mounted on the support, a substance support having a part thereof movable with respect to another part thereof, supporting means for said movable part providing for movement of the part to a predetermined position away from said other part upon raising movementof the frame, cams pivoted to the support and having supporting surfaces, rollers on the knife supporting frame engageable with the periphery of the cams, means causing shifting of the cams to bring the supporting surfaces in position to support the knife supporting frame when the knife supporting frame is raised, knifeframes mounted in the knife supporting frame, a motor for operating the knife frames, an electrical circuit including a switch for controlling the motor, and a single member operable to cause operation of the movable substance part towards the other part, release of the cam support for said knife supporting frame, and operation of the switch to start the motor.

25. A slicing machine comprising a main frame, a knife supporting frame pivotally mounted on said main frame for movement between a raised and lowered position, a knife frame reciprocably mounted in said knife supporting frame, a motor for reciprocating said knife frame, a substance supporting tray having one part movable towards and away from another part thereof, switch: means for controlling said motor, means controlled by movement of said first tray part for closing said switch means, and means preventing movement of the first tray part to close the switch means until said knife supporting frame is moved to said raised position.

26. A slicing machine comprising a main frame, a knife supporting frame pivotally mounted on said main frame for movement between a raised and lowered position, a knife frame reciprocably mounted in said knife supporting frame, a motor for reciprocating said knife frame, a substance supporting tray having one part movable towards and away from another part thereof, switch means for controlling said motor, means operated by said knife supporting frame upon movement to said lowered position for opening said switch means, means operable by movement of said first tray part away from said other part to set said switch means for closing, means for closing said switch means upon movement of said first tray part towards said other part, and means preventing movement of the first tray part away from the other part until said knife slicing frame is moved to said raised position thereby to prevent closing operation of the switch means during raising movement of the knife supporting frame.

27. A bread slicing machine comprising a main frame, a knife supporting frame pivotally mounted on said main frame for movement between a raised and lowered position, knife frames reciprocably mounted in said knife supporting frame, means for reciprocating said knife frames during downward movement of said knife supporting frame, a loaf supporting means mounted on said main frame, said loaf supporting means comprising a pair of comb-like members arranged to form a substantially V-shaped tray and adapted to clamp a loaf along longitudinally extending portions thereof, means providing for movement of one of said comb-like members to a lowered substantially horizontal position to facilitate the placing of a loaf in said tray, means for supporting the knife supporting frame in raised position, and means for simultaneously raising said last named comb-like member to clamp a loaf in fixed position along said longitudinal portions thereof and moving said supporting means to release the knife supporting frame.

ARTHUR H. AHRNDT. 

